Integrated HI emission in galaxy groups and clusters

TL;DR

This paper explores using FAST to detect and study the evolution of HI content in galaxy clusters and groups across cosmic time, combining simulations and observational strategies to optimize detection at various redshifts.

Contribution

It proposes a method to measure the evolution of HI in galaxy clusters using FAST, supported by simulations predicting detection capabilities and outcomes for future surveys.

Findings

FAST can detect HI in clusters up to z=1.5 with reasonable integration times.

Simulations show HI mass decreases and size increases with redshift, affecting detection strategies.

Mock catalogs predict more low-mass HI galaxies at higher integration times, guiding future surveys.

Abstract

The integrated HI emission from hierarchical structures such as groups and clusters of galaxies can be detected by FAST at intermediate redshifts. Here we propose to use FAST to study the evolution of the global HI content of clusters and groups over cosmic time by measuring their integrated HI emissions. We use the Virgo cluster as an example to estimate the detection limit of FAST, and have estimated the integration time to detect a Virgo type cluster at different redshifts (from z=0.1 to z=1.5). We have also employed a semi-analytic model (SAM) to simulate the evolution of HI contents in galaxy clusters. Our simulations suggest that the HI mass of a Virgo-like cluster could be 2-3 times higher and the physical size could be more than 50\% smaller when redshift increases from z=0.3 to z=1. Thus the integration time could be reduced significantly and gas rich clusters at intermediate redshifts can be detected by FAST in less than 2 hour of integration time. For the local universe, we have also used SAM simulations to create mock catalogs of clusters to predict the outcomes from FAST all sky surveys. Comparing with the optically selected catalogs derived by cross matching the galaxy catalogs from the SDSS survey and the ALFALFA survey, we find that the HI mass distribution of the mock catalog with 20 second of integration time agrees well with that of observations. However, the mock catalog with 120 second integration time predicts much more groups and clusters that contains a population of low mass HI galaxies not detected by the ALFALFA survey. Future deep HI blind sky survey with FAST would be able to test such prediction and set constraints to the numerical simulation models. Observational strategy and sample selections for the future FAST observations of galaxy clusters at high redshifts are also discussed.